Title :
Study of substrate noise and techniques for minimization
Author :
Peng, Mark Shane ; Lee, Hae-Seung
Author_Institution :
Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
The effects of substrate noise on analog circuits in a mixed-signal chip are described and analyzed based on measured results. Experimental data from a 0.25-μm CMOS test chip reveals that substrate noise generated by digital circuits couples into analog circuits through circuit asymmetries and device nonlinearity, degrading analog circuit performance. In particular, a delta-sigma modulator shows over 20-dB reduction of signal-to-noise-plus-distortion ratio (SNDR) in the presence of large toggling digital inverters. To combat the effects of substrate noise, the technique of active substrate noise shaping is investigated. An implementation of active substrate noise shaping on the same test chip demonstrates over 10-dB improvement in SNDR in the 0-20-kHz band of the delta-sigma modulator in the presence of toggling digital inverters emulating I/O drivers. This technique complements existing substrate noise reduction techniques for integrated circuits without a significant penalty in power and does not require modification of analog nor digital circuits.
Keywords :
CMOS integrated circuits; analogue integrated circuits; delta-sigma modulation; integrated circuit noise; integrated circuit testing; minimisation; mixed analogue-digital integrated circuits; substrates; 0.25 micron; CMOS integrated circuits; CMOS test chip; active substrate noise shaping; analog circuits; circuit asymmetries; delta-sigma modulator; device nonlinearity; digital circuits; minimization; mixed-signal chip; noise coupling; signal integrity; signal-to-noise-plus-distortion ratio; substrate noise reduction; system-on-a-chip; toggling digital inverters; Analog circuits; Circuit noise; Circuit testing; Delta modulation; Digital circuits; Digital modulation; Inverters; Minimization; Noise measurement; Noise shaping; CMOS integrated circuits; delta-sigma modulators; mixed-signal circuits; noise coupling; signal integrity; substrate noise; system-on-a-chip;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2004.835810
